CS211496B1 - Connection of the signal circuit for logical control propulsion blocks of the power unit and magnets - Google Patents

Description

The disadvantages of these circuits are their inconsistency, greater complexity and lower reliability, and especially the fact that they also reduce the reliability of the control and protection circuits. This results in more complex and expensive production, assembly, commissioning and maintenance.

Connection of the signaling circuit for the logic control blocks of the drives, actuators and magnets according to the invention Eliminates these disadvantages. Its essence is that the second input of the second summation circuit is connected to the fifth input of the circuit.

the fourth wiring input is coupled to the second input of the second product circuit, the output of which is coupled to the first input of the second summing circuit. The output of the second summation circuit is connected to one pole of the resistor, the other pole of which is connected to the output of the wiring.

The third wiring input is coupled to the second time circuit input and the second input of the first summation circuit, the first input of which is connected to the output of the first product circuit.

The second input of the first product circuit is coupled to the output of the timing circuit, the first input of which is coupled to the second wiring input.

The first wiring input is coupled to the first input of the first product circuit. The output of the first summation circuit is coupled to the first input of the second product circuit and the input of a non-self-contained circuit whose output is coupled to a source of a null logic signal.

The advantage of wiring is its complete stereotyping, simplicity, programmability and higher reliability, because the circuit is maximally separated from the control circuits, so that an interruption, component failure or short circuit in the signaling circuit does not affect the operation of the control circuits.

Furthermore, the possibility of complete external wiring typification allows for cheap design and production, quick and easy commissioning during assembly, as well as simple and stereotyped testing, which greatly facilitates maintenance.

An example of a circuit-breaker circuit for the logic control blocks of the drives, actuators and magnets of the invention is shown in the attached diagram. The second input 18 of the second summation circuit 2 is connected to the fifth input 12 of the wiring. The fourth wiring input 11 is connected to the second input 26 of the second product circuit 6, the output 25 of which is connected to the first input 17 of the second summing circuit 2.

The output 19 of the second summation circuit 2 is connected to one pole 31 of the resistor 2, the other pole 32 of which is connected to the output 13 of the wiring. The third wiring input 10 is connected to the second input 22 of the time circuit 2 ^and to the second input 15 of the first total circuit 10, the first input 14 of which is connected to the output 22 of the first product circuit.

The second input 21 of the first product circuit 6 is connected to the output 28 of the time circuit 2, the first input 26 of which is connected to the second wiring input 2.

The first wiring input 8 is connected to the first input 20 of the first product circuit 8. The output I? 1 of the first summation circuit 1 is connected both to the first input 23 of the second product circuit 6 and to the input 29 of the non-analog circuit 6, the output 30 of which is coupled to the zero logic signal source.

The individual circuit elements can be characterized as follows: The first and second summation circuits 4 and 2 are common diode summation circuits. The first and second product circuitry 6 and 6 are conventional diodorized product circuitry, implemented through a normally open relay and diodes.

Time Circuit 2 is an adjustable transistor time circuit having a conventional diodorant inhibition circuit in the input portion and a conventional reed relay in the output portion. the time circuit 2c enables a logic signal by a set time if its first input 26 is a single logical signal and its second input 27 a logic signal is zero.

The signaling circuit 6 is a conventional signaling circuit, realized in series by connecting a light-emitting diode and a resistor, a bulb and a resistor, and the like.

Resistor 2 is a common resistor used to limit the current flow in the event of a short circuit in the output circuits and to limit the charging current of the connected cable.

In practical use, an oscillating signal is applied to the first wiring input 8 for signaling the transient and fault states of the drives, actuators or magnets, and to the second wiring input 2 the signal derived from the actuating command of the actuator, actuators or magnet is connected.

The third wiring input 10 is coupled with a signal to achieve the desired state of the drive, actuator or magnet, and the fourth wiring input 11 is coupled with a signal to energize the signal upon operator request, failure, transition, and the like.

At the fifth wiring input 62, a signal for testing the non-self-contained elements connected to the wiring output 23 is connected. The function of the circuit is such that the circuit gives a permanent signal at the output 13 of the circuit in case of non-revival of the signal at the fourth input 11 of the circuit when the desired state of the drive, actuator or magnet is reached. Transient or understatement of drive, actuator or magnet. The transient state time is determined by setting the time on the circuit time circuit 6.

The wiring is preferably used in the construction of universal programmable control blocks, especially in diodorel logic.

Claims (1)

SUBJECT OF THE INVENTION Signal circuit connection for logic control blocks of drives, actuators and magnets, consisting of two total, two product, one time and one signal circuit, characterized in that the second input (18) of the second total circuit (2) is connected to the fifth input (12). a circuit whose fourth input (11) is connected to the second input (24) of the second product circuit (4), whose output (25) is connected to the first input (17) of the second total circuit (2), whose output (19) is connected to one pole (31) of the resistor (7), the other pole (32) of which is connected to the output (13) of the circuit, the third input (10) of which is connected to the second input (27) of the time circuit (5); 15) a first total circuit (1), the first input (14) of which is connected to the output (22) of the first product circuit (3), the second input (21) of which is connected to the output (28) of the time circuit (5), a first input (26) is connected to a second wiring input (9) of which the first input (8) is connected to the first input (20) of the first product circuit (3), the output (16) of the first total circuit (1) being connected to the first input (23) of the second product circuit (4) and to the input (29) ) a signaling circuit (6), the output of which (30) is connected to a source (33) of the zero logic signal.